A rekeyable lock cylinder includes a cylinder body with a longitudinal axis. A locking bar is disposed in the cylinder body for movement transverse to, and rotationally about, the longitudinal axis. A plug assembly is disposed in the cylinder body and is rotateable between a first position and a second position. The plug assembly has a lock face with a tool receiving aperture. A plurality of pins and a corresponding plurality of racks are disposed in the plug assembly. The plurality of racks is selectively engageable with the plurality of pins. A first member coupled to the plurality of racks is moveable in response to application of a force against the first member by a tool received through the tool receiving aperture. The first member is configured to simultaneously disengage all of the plurality of racks from the plurality of pins in response to the movement of the first member.
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6. A rekeyable lock cylinder, comprising:
a cylinder body with a longitudinal axis;
a locking bar disposed in the cylinder body for movement transverse to, and rotationally about, the longitudinal axis;
a plug assembly disposed in the cylinder body and being rotatable about the longitudinal axis, the plug assembly having a lock face with a tool receiving aperture;
a plurality of pins and a corresponding plurality of racks disposed in the plug assembly, the plurality of racks being configured to be engaged with the plurality of pins; and
a first member coupled to the plurality of racks, the first member being configured to be moved in response to application of a force by a tool received through the tool receiving aperture to facilitate a movement of at least one of the plurality of pins and at least one of the corresponding plurality of racks to effect rekeying to a new key.
1. A rekeyable lock cylinder, comprising:
a cylinder body with a longitudinal axis;
a locking bar disposed in the cylinder body for movement transverse to, and rotationally about, the longitudinal axis;
a plug assembly disposed in the cylinder body and being rotateable between a first position and a second position, the plug assembly having a lock face with a tool receiving aperture;
a plurality of pins and a corresponding plurality of racks disposed in the plug assembly, the plurality of racks being selectively engageable with the plurality of pins; and
a first member coupled to the plurality of racks, the first member being moveable in response to application of a force against the first member by a tool received through the tool receiving aperture, the first member being configured to simultaneously disengage all of the plurality of racks from the plurality of pins in response to the movement of the first member.
10. A rekeyable lock cylinder, comprising:
a cylinder body with a longitudinal axis and having a locking-bar engaging groove;
a locking bar disposed in the cylinder body for movement transverse to, and rotationally about, the longitudinal axis, the locking bar being configured to be selectively received in the locking-bar engaging groove of the cylinder body;
a plug assembly disposed in the cylinder body and being rotatable relative to the cylinder body, the plug assembly having a lock face with a key slot and a tool receiving aperture;
a plurality of pins and a corresponding plurality of racks disposed in the plug assembly, the plurality of racks being configured for engagement with the plurality of pins, and wherein a coupling couples the plurality of pins to the locking bar; and
a first member coupled to the plurality of racks, the first member being moveable in response to application of a force against the first member by a tool received through the tool receiving aperture, the first member being configured to simultaneously disengage all of the plurality of racks from the plurality of pins in response to the movement of the first member.
2. The rekeyable lock cylinder of
3. The rekeyable lock cylinder of
4. The rekeyable lock cylinder of
5. The rekeyable lock cylinder of
7. The rekeyable lock cylinder of
8. The rekeyable lock cylinder of
9. The rekeyable lock cylinder of
11. The rekeyable lock cylinder of
12. The rekeyable lock cylinder of
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This is a continuation of U.S. patent application Ser. No. 11/465,921, filed Aug. 21, 2006, now U.S. Pat. No. 7,322,219, which is a division of U.S. patent application Ser. No. 11/011,530 filed Dec. 13, 2004, now U.S. Pat. No. 7,114,357, which is a continuation-in-part of U.S. patent application Ser. No. 10/256,066 filed Sep. 26, 2002, now U.S. Pat. No. 6,860,131.
The present invention relates generally to lock cylinders and particularly to lock cylinders that can be rekeyed. More particularly, the invention relates to a keying system and method.
When rekeying a cylinder using a traditional cylinder design, the user is required to remove the cylinder plug from the cylinder body and replace the appropriate pins so that a new key can be used to unlock the cylinder. This typically requires the user to remove the cylinder mechanism from the lockset and then disassemble the cylinder to some degree to remove the plug and replace the pins. This requires a working knowledge of the lockset and cylinder mechanism and is usually only performed by locksmiths or trained professionals. Additionally, the process usually employs special tools and requires the user to have access to pinning kits to interchange pins and replace components that can get lost or damaged in the rekeying process. Finally, professionals using appropriate tools can easily pick traditional cylinders.
In addition, in one form of a master keying system, such as a pin and tumbler design, master shims are positioned in between the pins of the lock cylinder to establish a shear line for the master key and user keys. In such a previous design, for example, the consumer replaces the pins and adds shims to convert the lock cylinder to a master keyed cylinder. This may be a complicated process for some consumers.
The present invention overcomes these and other disadvantages of conventional lock cylinders and master keying systems.
The present invention, in one form thereof, is directed to a keying method. The method includes providing a cylinder body and a plug assembly disposed in the cylinder body, the plug assembly having a keyway, a plug body and a carrier sub-assembly disposed adjacent the plug body, the carrier sub-assembly being moveable parallel to the longitudinal axis of the cylinder body between a first position and a retracted position, the plug assembly including a plurality of pins and a plurality of racks for respectively engaging the plurality of pins, each rack of the plurality of racks having a locking bar-receiving groove.
The method further includes moving the carrier sub-assembly that carries the plurality of racks to the retracted position to decouple the plurality of racks from the plurality of pins; inserting a rack removal key in the keyway, the rack removal key having a cut that lifts the plurality of pins by a first amount; releasing the carrier sub-assembly from the retracted position to reengage the plurality of racks with the plurality of pins; disengaging a locking bar from the locking bar-receiving groove of each rack of the plurality of racks to decouple the racks; removing the rack removal key from the keyway; inserting a rack removal tool into the keyway, the rack removal tool having a cut that lifts the plurality of pins by a second amount greater than the first amount; moving the carrier sub-assembly to the retracted position to decouple the plurality of racks from the plurality of pins; removing each rack to be replaced from a corresponding access hole on the cylinder body; inserting a corresponding replacement rack through a respective access hole for each of the racks to be replaced, each replacement rack having the locking bar-receiving groove; releasing the carrier sub-assembly from the retracted position to engage each of the racks installed in the carrier sub-assembly with a corresponding pin of the plurality of pins; removing the rack removal tool from the keyway; reinserting the rack removal key in the keyway; without removing the rack removal key, engaging the locking bar with the locking bar-receiving groove of each rack to couple together the racks installed in the carrier sub-assembly; moving the carrier sub-assembly to the retracted position to decouple each of the racks installed in the carrier sub-assembly from the corresponding pin of the plurality of pins; and removing the rack removal key from the keyway.
The present invention, in another form thereof, is directed to a master keying method. The method includes providing a lock cylinder having a cylinder body with a longitudinal axis, and a plug assembly disposed in the cylinder body, the plug assembly having a keyway, a plug body having a plurality of protrusion features, and a carrier sub-assembly disposed adjacent the plug body, the carrier sub-assembly being moveable parallel to the longitudinal axis of the cylinder body between a first position and a retracted position, the plug assembly including a plurality of pins and a plurality of racks for engaging the pins, each rack of the plurality of racks having a locking bar-receiving groove and a protrusion receiving groove.
The method further includes inserting a valid master key into the keyway; rotating the valid master key to rotate the plug assembly from an original position to a first position in a first rotational direction; moving the carrier sub-assembly to a retracted position to decouple the plurality of racks from the plurality of pins and position the protrusion receiving groove of each rack over a corresponding protrusion feature on the plug body; removing the valid master key from the keyway; inserting a rack removal key in the keyway, the rack removal key having a cut that lifts the plurality of pins by a first amount; rotating the plug assembly to a second position in the first rotational direction to release the carrier sub-assembly from the retracted position to reengage the plurality of racks with the plurality of pins; removing a side plug from the cylinder body to disengage a locking bar from the locking bar-receiving groove of each rack, thereby decoupling all of the plurality of racks from each other rack; removing the rack removal key from the keyway; inserting a rack removal tool into the keyway, the rack removal tool having a cut that lifts the plurality of pins by a second amount greater than the first amount; moving the carrier sub-assembly to the retracted position to decouple the plurality of racks from the plurality of pins and position each rack above the corresponding protrusion feature on the plug body; removing the racks from access holes in the cylinder body; inserting each of a plurality of master racks through a respective access hole, each master rack of the plurality of master racks having a master locking bar-receiving groove and a master protrusion receiving groove; releasing the carrier sub-assembly from the retracted position to engage the plurality of master racks with the plurality of pins; remove the rack removal tool from the keyway; reinsert the rack removal key in the keyway; without removing the rack removal key, reinstalling the side plug back on to the cylinder body so that the locking bar engages with the master locking bar-receiving groove of each master rack of the plurality of master racks, thereby coupling all of the plurality of master racks together; rotating the plug assembly to the first position in a second rotational direction opposite to the first rotational direction; moving the carrier sub-assembly to a retracted position to decouple the plurality of master racks from the plurality of pins and position the master protrusion receiving groove of each master rack over a corresponding protrusion feature on the plug body; removing the rack removal key from the keyway; inserting a new master key in the keyway; and rotating the plug body back in the second rotational direction back to the original position to release the carrier sub-assembly from the retracted position to reengage the plurality of master racks with the plurality of pins.
The present invention, in another form thereof, is directed to a keying system. The system includes a cylinder body having a longitudinal axis. A plug assembly is disposed in the cylinder body. The plug assembly has a keyway. The plug assembly includes a plug body and a carrier sub-assembly disposed adjacent the plug body. The carrier sub-assembly is moveable parallel to the longitudinal axis of the cylinder body between a first position and a second position. The plug assembly includes a plurality of pins and a plurality of racks for selectively engaging the plurality of pins. Each rack of the plurality of racks has a first locking bar-receiving groove along a neutral axis and at least a second locking bar-receiving groove spaced from the neutral axis. A spacing of the second locking bar-receiving groove from the neutral axis of a first rack of the plurality of racks is different from a spacing of the second locking bar-receiving groove from the neutral axis of at least one other of the plurality of racks.
The present invention, in still another form thereof, is directed to a kit for a master keying system. The kit includes a plurality of replacement master racks, a rack removal key for insertion into a keyway, and a rack removal tool for insertion into the keyway. The rack removal key has a first cut defining a first lift amount. The rack removal tool has a second cut defining a second lift amount. The second lift amount is greater than the first lift amount.
The present invention, in still another form thereof, is directed to a keying method, including providing a plurality of replacement master racks to be installed in a movable carrier assembly of a lock cylinder; and manipulating the movable carrier assembly with a rack removal key and a rack removal tool, each of the rack removal key and the rack removal tool being configured for insertion into a keyway of the lock cylinder, the rack removal key having a first cut defining a first lift amount, and the rack removal tool having a second cut defining a second lift amount, the second lift amount being greater than the first lift amount.
Other features and advantages will become apparent from the following description when viewed in accordance with the accompanying drawings and appended claims.
A lock cylinder 10 according to the present invention is illustrated in
The lock cylinder body 12, as seen in
The plug assembly 14 includes a plug body 40, a carrier sub-assembly 42 and a plurality of spring-loaded pins 38 (
The intermediate portion 46 includes a main portion 70 formed as a cylinder section and having a first longitudinal planar surface 72 and a plurality of channels 74 for receiving the spring-loaded pins 38. The channels 74 extend transversely to the longitudinal axis of the plug body 40 and parallel to the planar surface 72. A second planar surface 76 extends perpendicular to the first planar surface 72 and defines a recess 80 for receiving a retaining cap 82 (
The carrier sub-assembly 42 (
Each spring-loaded pin 38 includes a pin 113 and a biasing spring 115. The pins 113, illustrated in
The spring-loaded locking bar 94, illustrated in
The spring-retaining cap 82, illustrated in
To assemble the lock cylinder 10, the pins 113 and spring 115 are disposed in the channels 74 of the plug body 40. The spring-retaining cap 82 is placed in the recess 80, with the cap retaining tips 152 disposed in the alignment openings 154 and the spring alignment tips 146 engaged with the springs 115. The carrier sub-assembly 42 is assembled by placing the racks 92 into the slots 103 and the spring-loaded locking bar 94 into the locking bar recess 106, with the gear teeth 136 engaging the locking bar-engaging grooves 132 formed in the racks 92. The spring catch 96 is disposed in the spring catch recess 108 of the carrier 90. A valid key 160 is inserted into the keyway 52, the return spring 98 is compressed into the return spring recess 112, and the carrier sub-assembly is placed adjacent the plug body 40, as illustrated in
The properly keyed lock cylinder 10, without the key 160 inserted, is illustrated in
The internal configuration of a lock cylinder 10 with the valid key 160 inserted therein at the home position is illustrated in
To rekey the lock cylinder 10, the valid key 160 is inserted into the keyway 52, as illustrated in
An alternative embodiment 210 of the invention is illustrated in
The modified housing 212, illustrated in
The modified pin biasing springs 226, illustrated in
The modified spring catch 228, illustrated in
The modified carrier 236, illustrated in
The modified pins 244, illustrated in
The modified racks 250, illustrated in
The modified locking bar 252, illustrated in
A kit may be provided that facilitates the rekeying of a lock cylinder with respect to a master keying system. The kit may include, for example, a rack carrier moving tool 162, such as an elongate pin, e.g., a straightened portion of a paper clip, for moving a rack carrier, such as for example carrier 236, in a longitudinal direction of the lock cylinder, such as that of the lock cylinder 210 of the alternative embodiment. Alternatively, the rack carrier moving tool 162 may be provided by the user.
The kit includes a rack removal key 310 (shown in
Referring to
At step S100, and with reference to
At step S102, a valid master key 354 is inserted into the keyway 314.
At step S104, as depicted in
At step S106, with reference to
At step S108, the valid master key 354 is removed from the keyway 314. Referring to
At step S110, the rack removal key 310 is inserted in the keyway 314, as shown in
At step S112, the plug assembly 316 is rotated by an additional 90 degrees in the first rotational direction, e.g., counterclockwise, by a corresponding rotation of the rack removal key 310, so as to release the carrier sub-assembly 346 from the retracted position to reengage the plurality of master racks 332 with the plurality of pins 244. For example, as shown in
At step S114, a removable side panel 220 is removed (see
At step S116, the rack removal key 310 is removed from the keyway 314.
At step S118, the rack removal tool 312 is inserted into the keyway 314. As described above, the rack removal tool 312 has a cut 326 that lifts the plurality of pins 244 by a second amount greater than the first amount associated with the cut 318 of the rack removal key 310. The rack removal tool 312 lifts the plurality of master racks 332 to a position such that the entirety of the plurality of master racks 332, including the protrusion grooves 335, will be above the protrusion features 344 on the plug body 340.
At step S120, the carrier sub-assembly 346 is subsequently moved to the retracted position to decouple the plurality of master racks 332 from the plurality of pins 244 and position each rack 332A-332E above the corresponding protrusion feature 344 on the plug body 340, as shown in
At step S122, one or more of the current plurality of master racks 332A-332E may now be removed from access holes 366 in the cylinder body 212 (see
At step S124, each of the plurality of replacement master racks 368 is inserted through a respective access hole 366 in cylinder body 212. The position of the plurality of replacement master racks 368 after the master racks 368 are inserted through the access holes 366 will be substantially like that of the plurality of master racks 332 shown in
At step S126, the carrier sub-assembly 346 is released from the retracted position to engage the plurality of replacement master racks 368 with the plurality of pins 244, as shown in
At step S128, the rack removal tool 312 is removed from the keyway 314.
At step S130, the rack removal key 310 is reinserted in the keyway 314. This sets the position of the plurality of pins 244 and in turn lines up the master locking bar-receiving grooves 370 (see
At step S132, without removing the rack removal key 310, the removable side panel 220 is reinstalled as shown in
At step S134, the plug assembly 316 is rotated by approximately 90 degrees in a second rotational direction, e.g., clockwise, opposite to the first rotational direction, by a corresponding rotation of rack removal key 310. This places the plug assembly in the learn mode position, as shown in
At step S136, the carrier sub-assembly 346 is subsequently moved to the retracted position to decouple the plurality of replacement master racks 368 from the plurality of pins 244 and position the protrusion grooves 372 of each replacement master rack 368A-368E over a corresponding protrusion feature 344 on the plug body 340. The movement of carrier sub-assembly may be effected by the rack carrier moving tool 162, by inserting the tool 162 into the rekeying tool opening 358 in the plug face 360 of the plug assembly 316. The individual positions of each of the plurality of replacement master racks 368 is shown in
At step S138, the rack removal key 310 is removed from the keyway 314.
At step S140, a new master key 374 is inserted into the keyway 314, as shown in
At step S142, the plug body 340 is rotated in the second rotational direction back to the original position, as shown in
The above-described embodiments, of course, are not to be construed as limiting the breadth of the present invention. Modifications and other alternative constructions will be apparent that are within the spirit and scope of the invention as defined in the appended claims.
Armstrong, Steven, Chong, Gerald B.
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